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Full Description
Composites Assembly for High Performance Fastener-less Structures provides a broad and balanced span of information, covering both fundamentals and applications across academic and industrial state-of-the-art research and development on assembly, joining, inspection and repair of high-performance structures made from fibre-reinforced polymer composites and multifunctional nanocomposites. This knowledge is essential for the realisation of critical features in assembly and joining evolving procedures (across their design, development and performance analysis) in such multi-material systems, but also for the through-life maintenance of composite components used in a range of engineering applications such as those composite structures utilised for wind turbine blades, automotive parts, aircraft wings and fuselage. The book also addresses the non-destructive testing methods used to detect damage occurring in composite joints, which are essential to decide if the repair is needed.
The book begins by providing a fundamental description of the requirements for composite joining, assembly and repair. It goes on to address a variety of joining and repair procedures in composite structures from thermoset adhesive bonding to thermoplastic hybridisation, through-the-thickness reinforcement and sandwich structures. Further chapters cover the reliable assessment of structure's damage tolerance and failure assessment procedures, including non-destructive inspections and image processing based structural health monitoring, and provide understanding of the most likely deterioration mechanisms occurring in processing and assembly of composite materials and structures. The book is wrapped up with the ongoing state-of-the-arts in multifunctional nanocomposites with application for high-performance structures for self-sensing, energy harvesting and properties tailoring.
Composites Assembly for High Performance Fastener-less Structures brings together state-of-the-art practices for assembly, in-service damage and repair procedures along with the existing certification and repair regulations, followed by the futuristic opportunities for enabling and emerging polymer nanocomposites for smart structures, for an audience of academic researchers, advanced students, engineers and manufacturing professionals.
Contents
Chapter 1: Overview on design and manufacturing of assembled composite aerostructures
Chapter 2: Processing of polymer composites: autoclave and microwave energy approaches
Chapter 3: Industry 4.0 for composites manufacturing
Chapter 4: Development of fibre-reinforced polymer composites through direct digital manufacturing
Chapter 5: Joining and repair of resin-infused, continuous fibre-reinforced, thermoplastic acrylic-matrix composites for extended applicability
Chapter 6: Aerospace composites' repair: integrated processes' feasibility
Chapter 7: Augmented reality-equipped composites bonded repair
Chapter 8: 3D printing of multi-material polymer composite systems
Chapter 9: 3D printing of composites for space applications
Chapter 10: Development and manufacturing of thermoplastic composite booms for drag augmentation system of a small satellite
Chapter 11: Adhesively bonded polymer composite joints
Chapter 12: Design principles and recent developments in adhesively bonded joints of fibre-reinforced plastic composite structures
Chapter 13: Mechanical degradation of composite bonded joints subjected to environmental effects
Chapter 14: Performance of aerospace composites in the presence of process-induced defects
Chapter 15: Interleaving in composites
Chapter 16: A deep learning-based tool to predict delamination induced interlaminar stresses in composite structures
Chapter 17: Damage assessment of composites based on non-destructive pulsed thermographic inspection
Chapter 18: Augmented reality-equipped composite monitoring
Chapter 19: Energy harvesting and self-sensing multi-functional polymer composites
Chapter 20: Tailoring thermo-mechanical properties of hybrid composite-metal bonded joint
Chapter 21: High-performance nanocomposites for strain self-sensing applications in composite joints
